Lib/test/test_audioop.py - platform/external/python/cpython3 - Gitiles

 # Test audioop.
 import audioop
 from test.test_support import verbose

 def gendata1():
     return b'\0\1\2'

 def gendata2():
     if verbose:
         print('getsample')
     if audioop.getsample(b'\0\1', 2, 0) == 1:
         return b'\0\0\0\1\0\2'
     else:
         return b'\0\0\1\0\2\0'

 def gendata4():
     if verbose:
         print('getsample')
     if audioop.getsample(b'\0\0\0\1', 4, 0) == 1:
         return b'\0\0\0\0\0\0\0\1\0\0\0\2'
     else:
         return b'\0\0\0\0\1\0\0\0\2\0\0\0'

 def testmax(data):
     if verbose:
         print('max')
     if audioop.max(data[0], 1) != 2 or \
               audioop.max(data[1], 2) != 2 or \
               audioop.max(data[2], 4) != 2:
         return 0
     return 1

 def testminmax(data):
     if verbose:
         print('minmax')
     if audioop.minmax(data[0], 1) != (0, 2) or \
               audioop.minmax(data[1], 2) != (0, 2) or \
               audioop.minmax(data[2], 4) != (0, 2):
         return 0
     return 1

 def testmaxpp(data):
     if verbose:
         print('maxpp')
     if audioop.maxpp(data[0], 1) != 0 or \
               audioop.maxpp(data[1], 2) != 0 or \
               audioop.maxpp(data[2], 4) != 0:
         return 0
     return 1

 def testavg(data):
     if verbose:
         print('avg')
     if audioop.avg(data[0], 1) != 1 or \
               audioop.avg(data[1], 2) != 1 or \
               audioop.avg(data[2], 4) != 1:
         return 0
     return 1

 def testavgpp(data):
     if verbose:
         print('avgpp')
     if audioop.avgpp(data[0], 1) != 0 or \
               audioop.avgpp(data[1], 2) != 0 or \
               audioop.avgpp(data[2], 4) != 0:
         return 0
     return 1

 def testrms(data):
     if audioop.rms(data[0], 1) != 1 or \
               audioop.rms(data[1], 2) != 1 or \
               audioop.rms(data[2], 4) != 1:
         return 0
     return 1

 def testcross(data):
     if verbose:
         print('cross')
     if audioop.cross(data[0], 1) != 0 or \
               audioop.cross(data[1], 2) != 0 or \
               audioop.cross(data[2], 4) != 0:
         return 0
     return 1

 def testadd(data):
     if verbose:
         print('add')
     data2 = []
     for d in data:
         str = bytearray(len(d))
         for i,b in enumerate(d):
             str[i] = 2*b
         data2.append(str)
     if audioop.add(data[0], data[0], 1) != data2[0] or \
               audioop.add(data[1], data[1], 2) != data2[1] or \
               audioop.add(data[2], data[2], 4) != data2[2]:
         return 0
     return 1

 def testbias(data):
     if verbose:
         print('bias')
     # Note: this test assumes that avg() works
     d1 = audioop.bias(data[0], 1, 100)
     d2 = audioop.bias(data[1], 2, 100)
     d4 = audioop.bias(data[2], 4, 100)
     if audioop.avg(d1, 1) != 101 or \
               audioop.avg(d2, 2) != 101 or \
               audioop.avg(d4, 4) != 101:
         return 0
     return 1

 def testlin2lin(data):
     if verbose:
         print('lin2lin')
     # too simple: we test only the size
     for d1 in data:
         for d2 in data:
             got = len(d1)//3
             wtd = len(d2)//3
             if len(audioop.lin2lin(d1, got, wtd)) != len(d2):
                 return 0
     return 1

 def testadpcm2lin(data):
     # Very cursory test
     if audioop.adpcm2lin(b'\0\0', 1, None) != (b'\0\0\0\0', (0,0)):
         return 0
     return 1

 def testlin2adpcm(data):
     if verbose:
         print('lin2adpcm')
     # Very cursory test
     if audioop.lin2adpcm(b'\0\0\0\0', 1, None) != (b'\0\0', (0,0)):
         return 0
     return 1

 def testlin2alaw(data):
     if verbose:
         print('lin2alaw')
     if audioop.lin2alaw(data[0], 1) != b'\xd5\xc5\xf5' or \
               audioop.lin2alaw(data[1], 2) != b'\xd5\xd5\xd5' or \
               audioop.lin2alaw(data[2], 4) != b'\xd5\xd5\xd5':
         return 0
     return 1

 def testalaw2lin(data):
     if verbose:
         print('alaw2lin')
     # Cursory
     d = audioop.lin2alaw(data[0], 1)
     if audioop.alaw2lin(d, 1) != data[0]:
         return 0
     return 1

 def testlin2ulaw(data):
     if verbose:
         print('lin2ulaw')
     if audioop.lin2ulaw(data[0], 1) != b'\xff\xe7\xdb' or \
               audioop.lin2ulaw(data[1], 2) != b'\xff\xff\xff' or \
               audioop.lin2ulaw(data[2], 4) != b'\xff\xff\xff':
         return 0
     return 1

 def testulaw2lin(data):
     if verbose:
         print('ulaw2lin')
     # Cursory
     d = audioop.lin2ulaw(data[0], 1)
     if audioop.ulaw2lin(d, 1) != data[0]:
         return 0
     return 1

 def testmul(data):
     if verbose:
         print('mul')
     data2 = []
     for d in data:
         str = bytearray(len(d))
         for i,b in enumerate(d):
             str[i] = 2*b
         data2.append(str)
     if audioop.mul(data[0], 1, 2) != data2[0] or \
               audioop.mul(data[1],2, 2) != data2[1] or \
               audioop.mul(data[2], 4, 2) != data2[2]:
         return 0
     return 1

 def testratecv(data):
     if verbose:
         print('ratecv')
     state = None
     d1, state = audioop.ratecv(data[0], 1, 1, 8000, 16000, state)
     d2, state = audioop.ratecv(data[0], 1, 1, 8000, 16000, state)
     if d1 + d2 != b'\000\000\001\001\002\001\000\000\001\001\002':
         return 0
     return 1

 def testreverse(data):
     if verbose:
         print('reverse')
     if audioop.reverse(data[0], 1) != b'\2\1\0':
         return 0
     return 1

 def testtomono(data):
     if verbose:
         print('tomono')
     data2 = bytearray()
     for d in data[0]:
         data2.append(d)
         data2.append(d)
     if audioop.tomono(data2, 1, 0.5, 0.5) != data[0]:
         return 0
     return 1

 def testtostereo(data):
     if verbose:
         print('tostereo')
     data2 = bytearray()
     for d in data[0]:
         data2.append(d)
         data2.append(d)
     if audioop.tostereo(data[0], 1, 1, 1) != data2:
         return 0
     return 1

 def testfindfactor(data):
     if verbose:
         print('findfactor')
     if audioop.findfactor(data[1], data[1]) != 1.0:
         return 0
     return 1

 def testfindfit(data):
     if verbose:
         print('findfit')
     if audioop.findfit(data[1], data[1]) != (0, 1.0):
         return 0
     return 1

 def testfindmax(data):
     if verbose:
         print('findmax')
     if audioop.findmax(data[1], 1) != 2:
         return 0
     return 1

 def testgetsample(data):
     if verbose:
         print('getsample')
     for i in range(3):
         if audioop.getsample(data[0], 1, i) != i or \
                   audioop.getsample(data[1], 2, i) != i or \
                   audioop.getsample(data[2], 4, i) != i:
             return 0
     return 1

 def testone(name, data):
     try:
         func = eval('test'+name)
     except NameError:
         print('No test found for audioop.'+name+'()')
         return
     try:
         rv = func(data)
     except Exception as e:
         print('Test FAILED for audioop.'+name+'() (with %s)' % repr(e))
         return
     if not rv:
         print('Test FAILED for audioop.'+name+'()')

 def testall():
     data = [gendata1(), gendata2(), gendata4()]
     names = dir(audioop)
     # We know there is a routine 'add'
     routines = []
     for n in names:
         if type(eval('audioop.'+n)) == type(audioop.add):
             routines.append(n)
     for n in routines:
         testone(n, data)
 testall()
	# Test audioop.
	import audioop
	from test.test_support import verbose

	def gendata1():
	return b'\0\1\2'

	def gendata2():
	if verbose:
	print('getsample')
	if audioop.getsample(b'\0\1', 2, 0) == 1:
	return b'\0\0\0\1\0\2'
	else:
	return b'\0\0\1\0\2\0'

	def gendata4():
	if verbose:
	print('getsample')
	if audioop.getsample(b'\0\0\0\1', 4, 0) == 1:
	return b'\0\0\0\0\0\0\0\1\0\0\0\2'
	else:
	return b'\0\0\0\0\1\0\0\0\2\0\0\0'

	def testmax(data):
	if verbose:
	print('max')
	if audioop.max(data[0], 1) != 2 or \
	audioop.max(data[1], 2) != 2 or \
	audioop.max(data[2], 4) != 2:
	return 0
	return 1

	def testminmax(data):
	if verbose:
	print('minmax')
	if audioop.minmax(data[0], 1) != (0, 2) or \
	audioop.minmax(data[1], 2) != (0, 2) or \
	audioop.minmax(data[2], 4) != (0, 2):
	return 0
	return 1

	def testmaxpp(data):
	if verbose:
	print('maxpp')
	if audioop.maxpp(data[0], 1) != 0 or \
	audioop.maxpp(data[1], 2) != 0 or \
	audioop.maxpp(data[2], 4) != 0:
	return 0
	return 1

	def testavg(data):
	if verbose:
	print('avg')
	if audioop.avg(data[0], 1) != 1 or \
	audioop.avg(data[1], 2) != 1 or \
	audioop.avg(data[2], 4) != 1:
	return 0
	return 1

	def testavgpp(data):
	if verbose:
	print('avgpp')
	if audioop.avgpp(data[0], 1) != 0 or \
	audioop.avgpp(data[1], 2) != 0 or \
	audioop.avgpp(data[2], 4) != 0:
	return 0
	return 1

	def testrms(data):
	if audioop.rms(data[0], 1) != 1 or \
	audioop.rms(data[1], 2) != 1 or \
	audioop.rms(data[2], 4) != 1:
	return 0
	return 1

	def testcross(data):
	if verbose:
	print('cross')
	if audioop.cross(data[0], 1) != 0 or \
	audioop.cross(data[1], 2) != 0 or \
	audioop.cross(data[2], 4) != 0:
	return 0
	return 1

	def testadd(data):
	if verbose:
	print('add')
	data2 = []
	for d in data:
	str = bytearray(len(d))
	for i,b in enumerate(d):
	str[i] = 2*b
	data2.append(str)
	if audioop.add(data[0], data[0], 1) != data2[0] or \
	audioop.add(data[1], data[1], 2) != data2[1] or \
	audioop.add(data[2], data[2], 4) != data2[2]:
	return 0
	return 1

	def testbias(data):
	if verbose:
	print('bias')
	# Note: this test assumes that avg() works
	d1 = audioop.bias(data[0], 1, 100)
	d2 = audioop.bias(data[1], 2, 100)
	d4 = audioop.bias(data[2], 4, 100)
	if audioop.avg(d1, 1) != 101 or \
	audioop.avg(d2, 2) != 101 or \
	audioop.avg(d4, 4) != 101:
	return 0
	return 1

	def testlin2lin(data):
	if verbose:
	print('lin2lin')
	# too simple: we test only the size
	for d1 in data:
	for d2 in data:
	got = len(d1)//3
	wtd = len(d2)//3
	if len(audioop.lin2lin(d1, got, wtd)) != len(d2):
	return 0
	return 1

	def testadpcm2lin(data):
	# Very cursory test
	if audioop.adpcm2lin(b'\0\0', 1, None) != (b'\0\0\0\0', (0,0)):
	return 0
	return 1

	def testlin2adpcm(data):
	if verbose:
	print('lin2adpcm')
	# Very cursory test
	if audioop.lin2adpcm(b'\0\0\0\0', 1, None) != (b'\0\0', (0,0)):
	return 0
	return 1

	def testlin2alaw(data):
	if verbose:
	print('lin2alaw')
	if audioop.lin2alaw(data[0], 1) != b'\xd5\xc5\xf5' or \
	audioop.lin2alaw(data[1], 2) != b'\xd5\xd5\xd5' or \
	audioop.lin2alaw(data[2], 4) != b'\xd5\xd5\xd5':
	return 0
	return 1

	def testalaw2lin(data):
	if verbose:
	print('alaw2lin')
	# Cursory
	d = audioop.lin2alaw(data[0], 1)
	if audioop.alaw2lin(d, 1) != data[0]:
	return 0
	return 1

	def testlin2ulaw(data):
	if verbose:
	print('lin2ulaw')
	if audioop.lin2ulaw(data[0], 1) != b'\xff\xe7\xdb' or \
	audioop.lin2ulaw(data[1], 2) != b'\xff\xff\xff' or \
	audioop.lin2ulaw(data[2], 4) != b'\xff\xff\xff':
	return 0
	return 1

	def testulaw2lin(data):
	if verbose:
	print('ulaw2lin')
	# Cursory
	d = audioop.lin2ulaw(data[0], 1)
	if audioop.ulaw2lin(d, 1) != data[0]:
	return 0
	return 1

	def testmul(data):
	if verbose:
	print('mul')
	data2 = []
	for d in data:
	str = bytearray(len(d))
	for i,b in enumerate(d):
	str[i] = 2*b
	data2.append(str)
	if audioop.mul(data[0], 1, 2) != data2[0] or \
	audioop.mul(data[1],2, 2) != data2[1] or \
	audioop.mul(data[2], 4, 2) != data2[2]:
	return 0
	return 1

	def testratecv(data):
	if verbose:
	print('ratecv')
	state = None
	d1, state = audioop.ratecv(data[0], 1, 1, 8000, 16000, state)
	d2, state = audioop.ratecv(data[0], 1, 1, 8000, 16000, state)
	if d1 + d2 != b'\000\000\001\001\002\001\000\000\001\001\002':
	return 0
	return 1

	def testreverse(data):
	if verbose:
	print('reverse')
	if audioop.reverse(data[0], 1) != b'\2\1\0':
	return 0
	return 1

	def testtomono(data):
	if verbose:
	print('tomono')
	data2 = bytearray()
	for d in data[0]:
	data2.append(d)
	data2.append(d)
	if audioop.tomono(data2, 1, 0.5, 0.5) != data[0]:
	return 0
	return 1

	def testtostereo(data):
	if verbose:
	print('tostereo')
	data2 = bytearray()
	for d in data[0]:
	data2.append(d)
	data2.append(d)
	if audioop.tostereo(data[0], 1, 1, 1) != data2:
	return 0
	return 1

	def testfindfactor(data):
	if verbose:
	print('findfactor')
	if audioop.findfactor(data[1], data[1]) != 1.0:
	return 0
	return 1

	def testfindfit(data):
	if verbose:
	print('findfit')
	if audioop.findfit(data[1], data[1]) != (0, 1.0):
	return 0
	return 1

	def testfindmax(data):
	if verbose:
	print('findmax')
	if audioop.findmax(data[1], 1) != 2:
	return 0
	return 1

	def testgetsample(data):
	if verbose:
	print('getsample')
	for i in range(3):
	if audioop.getsample(data[0], 1, i) != i or \
	audioop.getsample(data[1], 2, i) != i or \
	audioop.getsample(data[2], 4, i) != i:
	return 0
	return 1

	def testone(name, data):
	try:
	func = eval('test'+name)
	except NameError:
	print('No test found for audioop.'+name+'()')
	return
	try:
	rv = func(data)
	except Exception as e:
	print('Test FAILED for audioop.'+name+'() (with %s)' % repr(e))
	return
	if not rv:
	print('Test FAILED for audioop.'+name+'()')

	def testall():
	data = [gendata1(), gendata2(), gendata4()]
	names = dir(audioop)
	# We know there is a routine 'add'
	routines = []
	for n in names:
	if type(eval('audioop.'+n)) == type(audioop.add):
	routines.append(n)
	for n in routines:
	testone(n, data)
	testall()